CN112468555A - Macro command group control scheme based on cloud mobile phone - Google Patents
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L67/00—Network arrangements or protocols for supporting network services or applications
- H04L67/01—Protocols
- H04L67/10—Protocols in which an application is distributed across nodes in the network
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L67/00—Network arrangements or protocols for supporting network services or applications
- H04L67/01—Protocols
- H04L67/12—Protocols specially adapted for proprietary or special-purpose networking environments, e.g. medical networks, sensor networks, networks in vehicles or remote metering networks
- H04L67/125—Protocols specially adapted for proprietary or special-purpose networking environments, e.g. medical networks, sensor networks, networks in vehicles or remote metering networks involving control of end-device applications over a network
Abstract
The invention relates to a macro-command group control system based on a cloud mobile phone, which comprises: the cloud mobile phone end comprises an operation end, a general router, a control link, a test link and a plurality of cloud mobile phones; the operation end and the cloud mobile phone end are connected through two parallel links formed by the control link and the test link.
Description
Technical Field
The invention relates to the field of cloud mobile phone control, in particular to a macro-command group control scheme based on a cloud mobile phone.
Background
With the popularization of smart phones, the group control function of cloud mobile phone macro commands is gradually emphasized by the industry, the group control of the cloud mobile phone macro commands realizes the functions of simultaneous operation, batch installation/uninstallation, batch start/stop and the like of a plurality of cloud machines, and the large flow control can be realized at the same time.
The traditional cloud mobile phone group control needs manual and manual operation of one cloud machine, and the rest multiple cloud machines are driven to perform batch tasks through the group control. The cloud mobile phone macro command group control means that cloud mobile phone instructions can be set in advance, timed operation is performed, manual operation and manual operation are replaced, and batch tasks are timed automatically. The cloud mobile phone macro-command group control method has the advantages that instructions are executed on hundreds of cloud mobile phones in a batch and timed mode through the cloud mobile phone macro-command group control, the cloud mobile phones in the batch are automatically operated in a timed mode, for example, timed restart, application starting, polling tasks and the like are achieved, one-key recording scripts and multiple macro schemes are supported, multi-thread operation is conducted on different applications, the multiple macro schemes are executed at the same time, and the working efficiency of the cloud mobile phones is greatly improved.
The existing cloud mobile phone macro-command group control is usually realized through complicated multistage USB and HUB connection lines in the following mode, the mode makes system connection complicated, and due to the fact that when the number of mobile phones is large, redundancy and low transmission efficiency of the system are caused by excessive hierarchical HUB connection.
In summary, a macro-command group control scheme based on a cloud phone is needed to simplify system complexity, improve control transmission efficiency, and ensure group control stability.
Disclosure of Invention
The technical problem to be solved by the invention is as follows: the existing cloud mobile phone macro-command group control is usually realized through complicated multi-level USB and HUB connection lines in the following mode, the mode makes system connection complicated, and due to the fact that when the number of mobile phones is large, redundant system and low transmission efficiency are caused by excessive hierarchical HUB connection.
The technical scheme adopted by the invention for solving the technical problems is as follows:
a macro command group control system based on a cloud mobile phone comprises: the cloud mobile phone end comprises an operation end, a general router, a control link, a test link and a plurality of cloud mobile phones; the operation end and the cloud mobile phone end are connected through two parallel links formed by the control link and the test link.
Further, the operation end is a computer or other hardware terminal for installing the mobile phone group control software, and the operation end can be provided with the macro command.
Further, the operation terminal is connected to a general router through a communication network, the communication network is in wired or wireless network connection, and the general router is a router with double WANs.
Furthermore, one side of the main router is connected with the operation end, and the other side of the main router is respectively connected with the control link and the test link through the double WAN interfaces.
Further, the control link includes: one side of the router group is connected with the control server side of the general router, the other side of the control server side is connected with the router group, the router group comprises a plurality of routers, one side of the router group is connected with the control server side, the other side of the router group is connected with the cloud mobile phone side, and each router in the router group can be connected with any mobile phone in the cloud mobile phone side through a wireless network.
Further, the testing the link includes: one side of the testing control end is connected with the testing control end of the main router, the other side of the testing control end is connected with the testing router, the other side of the testing router is connected with the cloud mobile phone end, the wireless network connection mode of the testing router can be wireless network automatic connection of default configuration, and n cloud mobile phones of the cloud mobile phone end can automatically carry out default automatic connection on signals of the testing router.
Further, the test router and each of the plurality of routers in the router group are of the same model.
Furthermore, a rapid receiving and sending detection end is further arranged between the cloud mobile phone end and the test control end.
Furthermore, one side of the rapid receiving and sending detection end is connected with the cloud mobile phone end, and the other side of the rapid receiving and sending detection end is connected with the test control end and used for receiving the feedback signals sent by the cloud mobile phone end and sending the feedback signals to the test control end after being collected.
According to the cloud-mobile-based macro command group control method of the cloud-mobile-based macro command group control system, the method comprises the following steps:
s1, starting an operation end, and switching a connection link of a general router into a test link through the operation end;
s2, the operation end firstly sends test control signals to the n cloud mobile phones through the test link, and the test control end receives feedback signals of the test control signals, converts the feedback signals into equipment information and duration information and then sends the equipment information and the duration information to the control server and the operation end;
s3, after the equipment information and the duration information are obtained by the operation end, switching the link of the general router into a control link, and closing the test router;
s4, the control server generates a corresponding connection relation between each router in the router group and the cloud mobile phone according to the equipment information and the duration information, and configures each router in the router group according to the corresponding connection relation;
and S5, the operation end sends a group control instruction through the master router, the control service end and a plurality of parallel routers in the router group to realize group control.
The macro-command group control scheme based on the cloud mobile phone has the technical effects of simplifying system complexity, improving control transmission efficiency and ensuring group control stability.
Drawings
Fig. 1 is a schematic structural diagram of a macro-command group control system based on a cloud mobile phone according to the present invention.
Detailed Description
The cloud-phone-based macro command group control scheme of the present invention will be described in further detail below.
The present invention will now be described in more detail with reference to the accompanying drawings, in which preferred embodiments of the invention are shown, it being understood that one skilled in the art may modify the invention herein described while still achieving the beneficial results of the present invention. Accordingly, the following description should be construed as broadly as possible to those skilled in the art and not as limiting the invention.
In the interest of clarity, not all features of an actual implementation are described. In the following description, well-known functions or constructions are not described in detail since they would obscure the invention in unnecessary detail. It will of course be appreciated that in the development of any such actual embodiment, numerous implementation-specific details must be set forth in order to achieve the developer's specific goals.
In order to make the objects and features of the present invention more comprehensible, embodiments of the present invention are described in detail below with reference to the accompanying drawings. It is to be noted that the drawings are in a very simplified form and are intended to use non-precision ratios for the purpose of facilitating and clearly facilitating the description of the embodiments of the invention.
Fig. 1 is a schematic structural diagram of a macro command group control system based on a cloud mobile phone according to the present invention.
The macro command group control system based on the cloud mobile phones comprises an operation end, a general router, a control link, a test link and a cloud mobile phone end comprising a plurality of cloud mobile phones.
The operation end and the cloud mobile phone end are connected through two parallel links formed by a control link and a test link.
The operation end can be a computer or other hardware terminal for installing mobile phone group control software, and the operation end can be provided with a macro command and can realize the execution of the manual control macro command.
The operation terminal is connected to the main router through a communication network. The communication network can be wired or wireless network connection, and the general router can be a router with double WANs, so that the router can conveniently realize the switching of parallel links of a control link and a test link.
One side of the main router is connected with the operation end, and the other side of the main router is respectively connected with the control link and the test link through the double WAN interfaces.
Wherein the control link comprises: one side of the control server is connected with a control server of the general router, and the other side of the control server is connected with a router group, wherein the router group comprises a plurality of routers, for example: a first router and a second router (as shown in fig. 1), a preferred set of routers may include 2, 3, 4, 5, or even more routers. One side of the router group is connected with the control server side, the other side of the router group is connected with the cloud mobile phone side, and specifically, each router in the router group can be connected with any mobile phone in the cloud mobile phone side through a wireless network. The control link is used for transmitting formal group control signals.
The link testing comprises the following steps: one side of the testing router is connected with a testing control end of the general router, the other side of the testing control end is connected with the testing router, the other side of the testing router is connected with a cloud mobile phone end, and particularly, the testing router can be connected with any mobile phone in the cloud mobile phone end through a wireless network. The wireless network connection mode of the test router can be wireless network automatic connection configured by default, so that n cloud mobile phones at cloud mobile phone ends can automatically perform default automatic connection on signals of the test router. The test router and each of the plurality of routers in the router group are of the same model.
The test link is used for testing the signal transmission efficiency of a single switch on n cloud mobile phones in the cloud mobile phone end. Before sending a group control command, the operating end first sends a test control signal to the n cloud mobile phones through the test link, preferably, the test control signal may be a wireless network configuration signal for sending the wireless network configuration signal to the n cloud mobile phones, respectively, where the wireless network configuration signal includes: network entry configuration information for each of a plurality of routers in a group of routers in a control link, such as: router network name, gateway, IP, proxy address, security level, password, etc., such that each of the plurality of routers in the router group is an alternative device to which each of the n cloud handsets may connect. After each of the n cloud mobile phones receives the test control signal sent by the test link and the wireless network connection configuration of the mobile phone is completed, each of the n cloud mobile phones returns and sends the MAC address, the equipment number and the configuration completion time of the mobile phone to the test control end through the test router. And after receiving the information, the test control terminal stores the corresponding MAC address and equipment number information and generates the configuration transmission duration of the mobile phone according to the time difference between the sending of the test control signal and the receiving of the configuration completion time.
As an alternative embodiment, a fast transceiving detection end may be further included between the cloud mobile phone end and the test control end, where one side of the fast transceiving detection end is connected to the cloud mobile phone end, and the other side of the fast transceiving detection end is connected to the test control end, and is configured to receive a feedback signal sent by the cloud mobile phone end, and send the feedback signal to the test control end after collecting the feedback signal. After each of the n cloud mobile phones receives a test control signal sent by the test link and the wireless network connection configuration of the mobile phone is completed, each of the n cloud mobile phones returns and sends the MAC address, the equipment number and the configuration completion time of the mobile phone to the test control end through a quick receiving and sending detection end (instead of returning through the original route of the test router) which is independently arranged between the cloud mobile phone end and the test control end. The manner of sending information to the rapid receiving and sending detection end by the cloud mobile phone end can be to send instant messages and the like.
And the test control end sends the MAC address, the equipment number and the configuration transmission duration of the mobile phone to the control service end and sends the MAC address, the equipment number and the configuration transmission duration to the operation end through the general router.
The control server side sends information to the control server side according to the MAC address, the equipment number and the configuration transmission duration of the mobile phone, and configures the corresponding connection relation between each router in the router group and the cloud mobile phones, namely, each router in the router group needs several mobile phones in the n cloud mobile phones to carry out connection and equipment transmission, so that the signal transmission efficiency is obtained.
Specifically, the serial numbers of n cloud mobile phones are 1, 2, 3 … …, and n, and the time duration sequence fed back to the test control end by the cloud mobile phones is a ═ { Ti } ═ T1, T2, T3, … …, and Tn }, where the serial number i is {1, 2, 3, … …, n }. And (3) carrying out ascending arrangement on the time length, and obtaining an ascending time length sequence A' ═ sort (Ti) ═ Tj, namely the new numbering sequence j is rearranged according to the time length value after the ascending arrangement is carried out, and obtaining the original numbering sequence i. And (4) setting the serial numbers of the cloud mobile phones in the sequence j to be in the rearranged sequence, and sequentially distributing the serial numbers to the plurality of routers in turn. The communication pressure of a plurality of mobile phones can be evenly distributed to a plurality of routers, and the communication transmission efficiency is improved while the simplification of equipment connection is ensured.
For example, it is assumed that there are 10 cloud handsets and there are two routers in the router group, the numbers are 1 to 6, the time duration sequence fed back to the test control end by the cloud handsets is a ═ Ti } ═ T1, T2, T3, … …, T6} {0.02, 0.5, 0.1, 0.06, 0.08, 0.09}, the sequence i ═ 1, 2, 3, 4, 5, 6}, the time durations are arranged in an ascending order, the time duration sequence in an ascending order is a' ═ sort (Ti) {0.02, 0.06, 0.08, 0.09, 0.1, 0.5} ═ Tj, the new number sequence j ═ 1, 4, 5, 6, 3, 2}, the cloud handset numbers in the sequence j are rearranged, and the rearranged sequence is sequentially assigned to 2 routers. That is, the first router assigns the 1 st, 3 rd and 5 th mobile numbers in the j sequence, that is, j is 1, 5, 3; the second router assigns the number 2, 4, 6 in the sequence with the mobile number j, i.e. j equals 4, 6, 2.
And after the operation end obtains the MAC address, the equipment number and the configuration transmission duration information of the mobile phone, the operation end indicates that the test process is finished, the link of the general router is switched into a control link through the operation end, and the test router is closed.
And the control server starts each router in the router group according to the corresponding connection relation between each router in the configuration router group and the cloud mobile phone, and sets the network connection configuration of each router according to the corresponding connection relation, wherein the network connection configuration is specifically used for shielding the MAC address and the equipment number of the cloud mobile phone which is not correspondingly linked with the router. Based on the configuration method, the cloud mobile phone is automatically connected to the router of the router group with the cloud mobile phone.
After the automatic connection with the corresponding connection relation is established, the operation end can send a group control instruction through the master router, the control service end and a plurality of parallel routers in the router group, so that group control is realized.
The cloud mobile phone-based macro command group control method based on the group control system specifically comprises the following steps:
s1, an operation end is started, and a connection link of the general router is switched to a test link through the operation end.
Specifically, the operation terminal is connected to the main router through a communication network. The communication network can be wired or wireless network connection, and the general router can be a router with double WANs, so that the router can conveniently realize the switching of parallel links of a control link and a test link.
S2, the operation end firstly sends test control signals to the n cloud mobile phones through the test link, and the test control end receives feedback signals of the test control signals, converts the feedback signals into equipment information and duration information and then sends the equipment information and the duration information to the control server and the operation end.
Specifically, before sending the group control command, the operation end first sends a test control signal to the n cloud mobile phones through the test link, where the test control signal may be a wireless network configuration signal for sending the wireless network configuration signal to the n cloud mobile phones, respectively, and the wireless network configuration signal includes: network entry configuration information for each of a plurality of routers in a group of routers in a control link, such as: router network name, gateway, IP, proxy address, security level, password, etc., such that each of the plurality of routers in the router group is an alternative device to which each of the n cloud handsets may connect.
After each of the n cloud mobile phones receives the test control signal sent by the test link and the wireless network connection configuration of the mobile phone is completed, each of the n cloud mobile phones returns and sends the MAC address, the equipment number and the configuration completion time of the mobile phone to the test control end through the test router. And after receiving the information, the test control terminal stores the corresponding MAC address and equipment number information and generates the configuration transmission duration of the mobile phone according to the time difference between the sending of the test control signal and the receiving of the configuration completion time.
Alternatively, after each of the n cloud mobile phones receives the test control signal sent by the test link and completes configuration of the wireless network connection, each of the n cloud mobile phones returns and sends its own MAC address, device number and configuration completion time to the test control terminal through the fast transceiving detection terminal (instead of returning through the original route of the test router) separately arranged between the cloud mobile phone terminal and the test control terminal. The manner of sending information to the rapid receiving and sending detection end by the cloud mobile phone end can be to send instant messages and the like.
And the test control end sends the MAC address, the equipment number and the configuration transmission duration of the mobile phone to the control service end and sends the MAC address, the equipment number and the configuration transmission duration to the operation end through the general router.
And S3, after the equipment information and the duration information are obtained by the operation end, switching the link of the general router into a control link, and closing the test router.
And after the test control end indicates that the test process is finished after the MAC address, the equipment number and the configured transmission duration information of the mobile phone are obtained, the operation end sends an instruction to the general router, closes the test router and switches the link of the general router into a control link.
And S4, the control server generates a corresponding connection relation between each router in the router group and the cloud mobile phone according to the equipment information and the duration information, and configures each router in the router group according to the corresponding connection relation.
The control server side sends information to the control server side according to the MAC address, the equipment number and the configuration transmission duration of the mobile phone, generates a corresponding connection relation between each router in the router group and the cloud mobile phone, and configures the corresponding connection relation between each router in the router group and the cloud mobile phone according to the corresponding connection relation, namely, each router in the router group needs several mobile phones in n cloud mobile phones to carry out connection and equipment transmission, and therefore the signal transmission efficiency is obtained.
Specifically, the serial numbers of n cloud mobile phones are 1, 2, 3 … …, and n, and the time duration sequence fed back to the test control end by the cloud mobile phones is a ═ { Ti } ═ T1, T2, T3, … …, and Tn }, where the serial number i is {1, 2, 3, … …, n }. And (3) carrying out ascending arrangement on the time length, and obtaining an ascending time length sequence A' ═ sort (Ti) ═ Tj, namely the new numbering sequence j is rearranged according to the time length value after the ascending arrangement is carried out, and obtaining the original numbering sequence i. And (4) setting the serial numbers of the cloud mobile phones in the sequence j to be in the rearranged sequence, and sequentially distributing the serial numbers to the plurality of routers in turn. The communication pressure of a plurality of mobile phones can be evenly distributed to a plurality of routers, and the communication transmission efficiency is improved while the simplification of equipment connection is ensured.
For example, it is assumed that there are 10 cloud handsets and there are two routers in the router group, the numbers are 1 to 6, the time duration sequence fed back to the test control end by the cloud handsets is a ═ Ti } ═ T1, T2, T3, … …, T6} {0.02, 0.5, 0.1, 0.06, 0.08, 0.09}, the sequence i ═ 1, 2, 3, 4, 5, 6}, the time durations are arranged in an ascending order, the time duration sequence in an ascending order is a' ═ sort (Ti) {0.02, 0.06, 0.08, 0.09, 0.1, 0.5} ═ Tj, the new number sequence j ═ 1, 4, 5, 6, 3, 2}, the cloud handset numbers in the sequence j are rearranged, and the rearranged sequence is sequentially assigned to 2 routers. That is, the first router assigns the 1 st, 3 rd and 5 th mobile numbers in the j sequence, that is, j is 1, 5, 3; the second router assigns the number 2, 4, 6 in the sequence with the mobile number j, i.e. j equals 4, 6, 2.
And the control server starts each router in the router group according to the corresponding connection relation between each router in the configuration router group and the cloud mobile phone, and sets the network connection configuration of each router according to the corresponding connection relation, wherein the network connection configuration is specifically used for shielding the MAC address and the equipment number of the cloud mobile phone which is not correspondingly linked with the router. Based on the configuration method, the cloud mobile phone is automatically connected to the router of the router group with the cloud mobile phone.
And S5, the operation end sends a group control instruction through the master router, the control service end and a plurality of parallel routers in the router group to realize group control.
After the automatic connection with the corresponding connection relation is established, the operation end can send a group control instruction through the master router, the control service end and a plurality of parallel routers in the router group, so that group control is realized.
The macro-command group control scheme based on the cloud mobile phone has the technical effects of simplifying system complexity, improving control transmission efficiency and ensuring group control stability.
The foregoing shows and describes the general principles, essential features and advantages of the invention, which is, therefore, described only as an example of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are merely illustrative of the principles of the invention, but rather that the invention includes various equivalent changes and modifications without departing from the spirit and scope of the invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.
Claims (10)
1. The utility model provides a macro group control system based on cloud cell-phone which characterized in that: the system comprises: the cloud mobile phone end comprises an operation end, a general router, a control link, a test link and a plurality of cloud mobile phones; the operation end and the cloud mobile phone end are connected through two parallel links formed by the control link and the test link.
2. The cloud handset based macro command group control system according to claim 1, wherein: the operation end is a computer or other hardware terminal for installing mobile phone group control software, and the operation end can be provided with a macro command.
3. The cloud handset based macro command group control system according to claim 1, wherein: the operation terminal is connected to a main router through a communication network, the communication network is in wired or wireless network connection, and the main router is a router with double WANs.
4. The cloud handset based macro command group control system according to claim 1, wherein: one side of the main router is connected with the operation end, and the other side of the main router is respectively connected with the control link and the test link through the double WAN interfaces.
5. The cloud handset based macro command group control system according to claim 1, wherein: the control link includes: one side of the router group is connected with the control server side of the general router, the other side of the control server side is connected with the router group, the router group comprises a plurality of routers, one side of the router group is connected with the control server side, the other side of the router group is connected with the cloud mobile phone side, and each router in the router group can be connected with any mobile phone in the cloud mobile phone side through a wireless network.
6. The cloud handset based macro command group control system according to claim 5, wherein: the link testing comprises the following steps: one side of the testing control end is connected with the testing control end of the main router, the other side of the testing control end is connected with the testing router, the other side of the testing router is connected with the cloud mobile phone end, the wireless network connection mode of the testing router can be wireless network automatic connection of default configuration, and n cloud mobile phones of the cloud mobile phone end can automatically carry out default automatic connection on signals of the testing router.
7. The cloud handset based macro command group control system according to claim 6, wherein: the test router and each of the plurality of routers in the router group are of the same model.
8. The cloud handset based macro command group control system according to claim 7, wherein: and a rapid receiving and sending detection end is further arranged between the cloud mobile phone end and the test control end.
9. The cloud handset based macro-command group control system according to claim 8, wherein: one side of the rapid receiving and sending detection end is connected with the cloud mobile phone end, and the other side of the rapid receiving and sending detection end is connected with the test control end and used for receiving feedback signals sent by the cloud mobile phone end and sending the feedback signals to the test control end after being collected.
10. The cloud-handset-based macro command group control method of the cloud-handset-based macro command group control system according to any one of claims 1 to 9, wherein: the method comprises the following steps:
s1, starting an operation end, and switching a connection link of a general router into a test link through the operation end;
s2, the operation end firstly sends test control signals to the n cloud mobile phones through the test link, and the test control end receives feedback signals of the test control signals, converts the feedback signals into equipment information and duration information and then sends the equipment information and the duration information to the control server and the operation end;
s3, after the equipment information and the duration information are obtained by the operation end, switching the link of the general router into a control link, and closing the test router;
s4, the control server generates a corresponding connection relation between each router in the router group and the cloud mobile phone according to the equipment information and the duration information, and configures each router in the router group according to the corresponding connection relation;
and S5, the operation end sends a group control instruction through the master router, the control service end and a plurality of parallel routers in the router group to realize group control.
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